(02-29-2016, 01:32 AM)APeacefulWarrior Wrote:(02-28-2016, 09:25 PM)Parsons Wrote: I would like to ask Ra if the Quarantine currently in place prevents radio waves (and other similar electronic communication) from being received by 3rd density entities of this planet.
I'm relatively certain the answer to this is 'no.' The quarantine and veil prevents higher-density energies from getting through. Radio is a 3D thing, and radio waves are more like 1D. Also, Voyager 1 is well beyond the confines of the solar system at this point without picking up much of interest, and there's no reason it would be affected by an Earth-specific interdiction field. Not unless the barrier extends all the way to the Oort cloud,, anyway, which seems like overkill.
So of the approximately 18 million worlds that have 3rd density life in the Milky Way, none have developed radio technology in the past 80-100k years? (Explanation of the math I did: A} Our galaxy is approximately 100k light years across, so if two planets were at the very edge of the galaxy, it would take 100k years for radio waves to reach from one to the other. We are not quite at the very edge of the galaxy, so it would be less than 100k. B} Ra gave us figures for how many worlds have life regardless of density and the percentage of each density in session 16 - http://www.lawofone.info/results.php?s=16#26. Ra said that 27% of the 67 million inhabited worlds are 3D, so 18 million.)
What about radio waves from other 3D planets in close neighboring galaxies? (Our neighbor the Andromeda galaxy is a juggernaut in comparison: is has an (estimated) 1 trillion stars to our (estimated) 100 billion. If there is a similar ratio of 3D worlds, that would mean they would have about 180 million. Andromeda is about 2.5 million lightyears away, meaning radio waves would reach us in that timeframe. 2.5 million years is a blink of an eye in galactic terms and not all planets start 3d at the same time as evidenced by Venus, Maldek and Mars.)
Just combining those numbers and ignoring any other nearby galaxies, there would currently be roughly 200 million 3D worlds within 2.5 million lightyears. I would imagine the odds of not a single one of those worlds developing and employing radio technology within the past 2.5 million years to be astronomical (no pun intended). Even just with the confirmed 18 million, it would still be highly unlikely / astronomical.
A more specific example I would like to highlight is that Ra told us that 3D beings "of a fairly high order" visited us from the Sirius star system, which is only 8.6 light years away. They had the technology to come here in spacecraft, but they never bothered to develop Radio technology? Furthermore, if one of our closest neighboring star systems has 3D life of such highly advanced technology, what are the odds that a star within say, 100 light years (because we invented the radio about 100 years ago), would not develop radio technology? I'm not sure if I am calculating this correctly because there is "square light years" involved, but 100 light years out of 100k light years = 1000 (1 thousandth the size of the diameter of the galaxy). So assuming the 3D worlds are spread out roughly evenly throughout the galaxy, 18 million 3D planets / 1000 = 18,000 (18k) 3D planets within only 100 light years. Even if my math is off and the planets are not uniformly distributed, I'm sure there is a minimum of several hundred - several thousand 3D planets within 100 light years since there's 18 million in the galaxy.
tl;dr - My original question on if the quarantine prevents radio waves was basically a rhetorical one considering the sheer number of 3D planets in our galaxy and (presumably) in neighboring galaxies. I highly doubt we were the only one of those worlds who has employed radio technology within the 100 years since it's been invented.
So to answer your question about Voyager 1, I'm assuming that the quarantine would also extend to 3D technology no matter where we deploy it.